TW201116727A - Locking device having positioning and floating adjustable capability - Google Patents

Abstract

A locking device comprising a positioning part, a bracket, and a fixing element is provided. The positioning part disposed at a lateral side of an apparatus having at least one fixing opening has at least one positioning opening corresponding to the at least one fixing opening respectively wherein two sides of the positioning opening have necking channel communicating with the positioning opening respectively. The bracket having a sliding slot is attached on a frame. The fixing element is slidably coupled to the sliding slot and thereby being aligned with the fixing opening by the guiding of the necking channel while sliding in the sliding slot. The locking device of the present invention is adaptable to apparatus having different size with various fixing opening location so that the fixing element can be aligned with the fixing opening easily and conveniently and thereby being utilized to couple the apparatus to the bracket.

Description

201116727 VI. Description of the Invention: [Technical Field] The present invention relates to a locking technique, and more particularly to a positioning and floating of a type of floating adjustment locking element and a pair of locking elements located at a locking position The locking mechanism of the adjustment mechanism. [Prior Art] ^ The progress of Yu Xiang (4) has made today's society in an era of information science and speed development. Therefore, the benefits of traditional personal computers have been second, the law responds to the needs of high-speed and large-scale data processing in enterprises. In order to respond to the need for information storage and processing, computer information providers are specialized in providing servers with different functions to meet the different needs of enterprises. /- The general server is placed in the cabinet - as shown in the figure - the diagram is the schematic diagram of the cabinet. Generally speaking, there will be a strict plate in the cabinet, and after the door panel is opened, there will be a receiving space u inside, and there is a frame 12 on both sides of the receiving space, and a plurality of openings 13 are provided thereon to provide The locking element 14 is secured to the frame 12 by the feeder 15. In addition to the positive 6's, in order to enhance the locking effect, a bracket 16' is also provided between the side of the servo 15 and 1 is fixed at one end thereof. The side of the servo 15 is locked to the bracket 16 by a locking element 17. 1 However, there are many different sizes and sizes due to the variety of gambling machines and the function of the (4) server. In order to respond to different sizes of feeding, the size and size of the cabinet will also be different (as shown in the figure - the virtual scale 201116727 extends the size of the different cabinets). As the size of the servo changes, the depth D is taken as an example, because the change in size causes the position of the locking hole 150 on the side of the servo 15 to change. Therefore, when the side is locked, it is necessary to select the appropriate size and the bracket 16 corresponding to the opening position of the side locking hole 150 of the servo 15 to lock the servo 15 to the bracket 16. However, due to the error of the drilling process, the locking hole 150 on the servo 15 is often inconsistent with the through hole 18 in the bracket 16, which increases the difficulty and inconvenience in locking. In order to solve the inconvenience caused by the servos of different sizes, in the conventional technology, a bracket is disclosed in the Korean Patent Publication No. 1234050, which has an elongated chute, which can provide a locking element through slide. Since the locking element can slide on the chute, the position can be easily adjusted to correspond to the fixing hole on the device to achieve the locking effect. For example, in the Republic of China Announcement No. 213264 patent, an aluminum extruded cabinet frame is disclosed, which has a groove in the frame, and a screw hole seat that can be floated therein, so that the user can adjust by moving the screw hole seat. Lock position. Although the above-mentioned conventional technology can solve the problem of adjusting the position of the locking component, it is necessary to visually lock the locking component to the fixing hole by the user to smoothly lock. However, in actual use, due to the limited space of the cabinet, the user can directly use the visual alignment to align the locking component with the locking hole of the servo. Therefore, it is usually only possible to align the locking element with the servo locking hole by virtue of the feeling. As a result, there is a great deal of inconvenience and inconvenience in use. In summary, there is a need for a locking device with a positioning/floating adjustment mechanism to solve the problems caused by conventional techniques. 201116727 SUMMARY OF THE INVENTION The present invention provides a locking device with a positioning and floating adjustment mechanism, which has a locking component that can change the locking position and can quickly fix the locking component when the locking component moves. The fixing hole on the locking device is correspondingly positioned, so that the locking device can be applied to frames of various depths and sizes (for example, a frame for a server), and can be used

Without the aid of vision, the locking element can be easily aligned with the fixing hole to easily lock the device. In an embodiment, the present invention provides a locking device having a positioning and a floating, a work, a work, and a locating system. The system includes: a positioning portion disposed on a device having at least a fixing hole. - on the side, the positioning portion has a - alignment port around each of the fixing holes, and at least one side of the alignment port has a neck: a passage; the bracket - has a sliding groove, and the bracket is disposed on the bracket a frame and a locking element are slidably disposed in the sliding slot, and the locking element has a _ portion. When the locking component slides in the sliding slot, the locking portion==reducing the passage and entering In the alignment port, the locking portion and the manner of the implementation are provided. In order to enable the reviewing committee to understand and understand the features of the present invention, τ文特 will explain the structure of the main part and the original design concept. In order to make / understand the characteristics of the present invention, the detailed description is as follows: - Please refer to FIG. 2, which is a three-dimensional locking device with positioning and number 201116727 dynamic adjustment mechanism. Decomposition diagram. The locking device 2 includes a positioning portion 20, a bracket 21 and a locking member 22. The positioning portion 20 is disposed on one side 900 of a device 90 having at least one fixing hole 901. The positioning portion 20 has a pair of position ports 200 around each of the fixing holes 901. The two sides of the pair of position ports 200 respectively have a necking passage 201. The type of the device 90 is not particularly limited as long as it is a device that needs to be fixed. In this embodiment, the device 90 is an electronic device, such as a server, a router, a network switch, a storage medium (for example, a hard disk), or a reading device (for example, a CD player). ), etc. need to be locked on the side to fix the device in the cabinet receiving cabinet. In addition, it can also be used when the device is to be hung or fixed to the wall, for example, when the display is hung from a frame fixed to the wall. The positioning portion 20 in this embodiment further includes a concave base 202 and two pairs of elastic alignment portions 203. The concave body 202 has an opening 2020 side and an accommodating space 2021. The two pairs of elastic alignment portions 203 are respectively disposed in the accommodating space 2021, and each pair of elastic portions 203 corresponds to one of the fixing holes 901 on the side surface 900. Each of the elastic alignment portions 203 further has a pair of arms 204 and 205 which are symmetrically arranged with each other. Each of the arms 204 and 205 further has a first rod 2040 and 2050, a curved rod 2041 and 2051, and a pair. The second rods 2042, 2043 and 2052, 2053. The first rod body 2040 and 2050 are connected to the inner wall of the concave seat body 202 at an angle Θ with the inner wall of the concave seat body 202. The curved rods 2041 and 2051 are disposed on one side of the fixing hole 901. In this embodiment, since the curved rods 2041 and 2051 have curvature, the curved rod 2041 and the adjacent 201116727 another curved rod 2051 are mutually Correspondingly, the alignment port 200 is formed between the two curved bars 2041 and 2051. The pair of second rods 2042, 2043 and 2052, 2053 of the second rods 2042 and 2052 are connected to one end of the curved rods 2041 and 2051 and the first rods 2040 and 2050, and the other second rod The bodies 2043 and 2053 are connected to the other ends of the curved rods 2041 and 2051, so that the second rods 2042, 2043 and 2052, 2053 of the pair of arms 2〇4 and 205 are formed on both sides of the alignment port 200. The necking passages 201, that is, the openings of the corresponding second rod bodies 2042, 2043 and 2052, 2053 are larger than the openings connected to the ends of the curved rods 2041 and 2051. In addition, in order to facilitate the positioning of the positioning portion 20 and the position of the positioning portion 20, a groove 902 may be disposed on the side surface 900 of the device 90 such that the outer wall of the concave seat 202 of the positioning portion 20 is opposite to the inner wall of the groove 902. by. It should be noted that although there are two pairs of elastic alignment portions 203 in the positioning portion 20 of the embodiment, the actual number is not limited thereto, and one pair or three pairs or more may be used. Need to be determined. Please refer to FIG. 3A, which is a schematic diagram of another embodiment of the positioning unit of the present invention. In the present embodiment, the positioning portion 23 has a concave seat body 230 and at least one elastic alignment portion 231. The recessed body 230 has a recess 2300 at a position corresponding to the at least one fixing hole 901, and each of the elastic aligning portions 231' respectively corresponds to the at least one fixing hole 901 Each of the elastic alignment portions 231 further has an arm 232. The arm 232 further has a first rod 2320, a curved rod 2321 and a pair of second rods 2322 and 2323. The first rod body 2320 is connected to the inner surface of the concave seat body 230 at an angle of 0 to the inner wall of the concave seat body 230. The curved rod 2321 is disposed on one side of the fixing hole 901, and the 201116727 curved rod 2321 forms an alignment port 233 with the groove 2300. One of the second rod bodies 2322 and 2323 is connected to one end of the curved rod 2321 and the first rod body 2320, and the other second rod body 2323 is connected to the other of the curved rods 2321. At one end, the second rods 2322 and 2323 of the arm 232 and the inner wall of the concave base 230 form a necking channel 234 on both sides of the alignment port 233. It should be noted that although there are two elastic alignment portions 231 in the positioning portion 23 of the embodiment, the actual number is not limited thereto, and one or more may be used, depending on the needs of use. . In addition, as shown in FIG. 3B, in the embodiment, the necking channel 201 does not have to be simultaneously provided on both sides of the alignment port 200, as long as at least one side has the effect of positioning. Referring to FIG. 2, the bracket 21 has a sliding slot 210. The other end of the bracket 21 has a folding plate 211. The folding plate 211 defines a plurality of fixing holes 2110. The bracket 21 can be disposed on a frame 24, and the fixing hole 2110 of the bracket 21 corresponds to the positioning hole 240 of the frame member 24 to provide a locking component 25 for locking the bracket 21 to the frame 24. . The locking element 22 is slidably disposed in the sliding slot 210. The locking element 22 has a cap body 221, a sliding body 222 and a blocking body 223. The sliding body 222 is connected to the cap body 221, and the sliding body 222 is slidably disposed in the sliding groove 21G. The blocking body 223 is disposed at the other end of the sliding body 222 to prevent the locking element 22 from being disengaged from the sliding slot 210. The locking body 220 is further connected to the locking portion 220 on the side of the blocking body 223. Screw teeth. When the locking element 22 slides in the sliding slot 210, the center of the locking portion 220 of the locking element 22 corresponds to the center line of the alignment port 200 of the two pairs of elastic alignment portions 203. Therefore, when the locking component 22 slides 10 201116727 in the sliding slot 210, the locking component 22 can enter the alignment opening 2 through the necking passage 2〇1, so that the locking portion 220 is The fixing holes 9〇1 correspond to each other. In an embodiment, the smallest opening of the necking passage 201 is smaller than the diameter of the locking portion 220 of the locking member 22, so that the locking portion enters the alignment opening by the smallest opening in the necking passage. The positioning effect is produced by the elastic restoring forces of the pair of arms 2〇4 and 2〇5. - Next, the locking method of the present invention will be described. Referring to Figures 4A to 4c, the drawings are respectively schematic views of the operation of the locking device of the present invention. The device 90 of the present embodiment is a server. When the servo is housed in the cabinet 1, the side locking member 22 is adjusted to lock the device 9 to the bracket. Since the position of the fixing hole 9〇1 on the side of the mounting S 90 varies depending on the size or size of the device, the user needs to move the locking element 22 to find the fixing hole 9〇 on the side. Please refer to Figure 4B: During the movement of the locking element 22 in the χ direction, the locking element (4) iTH220- will enter the head deflation 201' via the largest opening of the necking channel 2〇1. The channel 2〇1 is guided by the smallest opening into the alignment σ 2qq ''', Η(10)". Since the smallest opening of the collapse channel 201 is smaller than the width of the locking portion 220, the neck ig, #9ni, and thus the locking portion 220 is smaller than the diameter of the two-bar body 2042 of the locking portion (10). With 2052, i隹 兮 兮 , , , , , , 第 第 第 第 第 第 第 第 第 第 第 第 第 第 第 第 第 第 第 吏 吏 吏 吏 吏 吏 吏 吏 吏 吏 吏 吏 吏 吏 吏 吏 吏 吏 吏 吏 吏 吏媸;弟一# Body 2040 with both sides (Υ direction) moving, the first: Structure, so in the direction of resilience. When the locking portion 220 continues to move forward (4) the fixed hole 901 ff 雁 拄 山 μ aligning with the inside of the mouth 200 as the solid locking portion 220 no longer abuts against the second axis 201116727 and 2052, so the first A rod body 2040 and 2050 will bring the first rod bodies 2040 and 2050 back to the original position due to the elastic restoring force, thereby returning the second rod bodies 2042 and 2052 to the original position to cause a locking effect on the locking portion 220. The locking portion 220 is caused to stay in the alignment port 200 to form a state as shown in FIG. 4c. In the state of Fig. 4C, the locking portion 220 can be locked into the corresponding fixing hole by rotation to lock the device 90 to the bracket 21. Conversely, if the device 90 is to be removed, the user simply releases the locking portion 220 and the device can be removed. Although the moving direction of the locking element 22 shown in FIG. 4A to FIG. 4c is the X direction, if it is the _χ direction, the necking channel 201 on the right side of the alignment port enters the registration port 2〇〇, which The same principle is used, and no capital is used here. However, the above description is only an embodiment of the present invention, and the present invention cannot be limited thereto. That is, the scope of the invention is not limited to the spirit and scope of the present invention, and should be regarded as the further implementation of the present invention. 12 201116727 [Simple description of the diagram] Figure 1 is a schematic diagram of the cabinet used in the past. Figure 2 is a perspective exploded view of the locking device with positioning and floating adjustment mechanism of the present invention. FIG. 3A is a schematic diagram of another embodiment of the positioning unit of the present invention. - Figure 3B is a schematic view of still another embodiment of the positioning unit of the present invention. 4A to 4C are respectively schematic views of the operation of the locking device of the present invention. • [Main component symbol description] 1_machine 10 - door panel 11 - housing space 12 - frame • 13-opening. 14-locking element φ 15-server 150-locking hole 16- bracket 17-lock Element 18 - Through Hole 2 - Locking Device 20 - Positioning Portion 200 - Alignment Port 13 201116727 201 - Necked Channel 202 - Concave Seat 2020 - Opening 202 Bu accommodating Space 203 - Elastic Alignment Portion 204, 205- Arms 2040, 2050 - first rods 2041, 2051 - curved rods 2042, 2043, 2052, 2053 - second rod 21 - bracket 210 - chute 211 - flap 2110 - fixing hole 22 - locking element 220 - Locking portion 23 - Positioning portion 230 - Concave seat 2300 - Groove 231 - Elastic aligning portion 232 - Arm 2320 - First rod 2321 - Curved rod 2322, 2323 - Second rod 14 201116727 233- Position 234- Necked Channel 24 - Frame 240 - Positioning Hole 25 - Locking Element 90 - Device 900 - Side 901 - Mounting Hole

15

Claims (1)

201116727 VII. Applicable Patent Range: 1. A locking device for positioning and floating adjustment mechanism, comprising: a positioning portion disposed on one side of a device, the side having at least one fixing hole, The positioning portion has a pair of position ports around each of the fixing holes, and at least one side of the positioning port has a contraction channel; the bracket has a sliding slot, and the bracket is disposed on a frame; The Dansha sliding fork is disposed in the chute, and the recording element has a tamping lock portion. When the closing element slides in the sliding slot, the locking portion passes through the passage and enters the material level π. The locking portion corresponds to the fixing hole. The positioning and floating adjustment mechanism locking device according to the first aspect of the invention, wherein the positioning portion further has: a body having a groove on a side of the inner side corresponding to the at least the fixing hole; The elastic aligning portion respectively has at least one fixing hole opposite each: each elastic aligning portion has an arm, and the system further has: a rod body connected to the concave seat body The inner wall of the concave shaped seat is at an angle; /, the curved one is disposed on one side of the fixed hole, the curved rod forms the opposite position with the groove; and one of the pair of the body is one of the skirts - The two sides of the body are connected to one end of the Haiqu and the first rod, and the other second body is connected to the other end of the curved rod, so that the branch The arm has 16 16 16 16727 and the second rod body and the inner wall of the concave seat are two necked channels at the opposite position. ^ 3· 范 f: The positioning and floating adjustment mechanism described in item 1 • The locking device, which makes the positioning portion more: • a concave seat; to = the pair of misalignment, the division is at least _ _ fixing hole relative to f: each elastic aligning portion has a pair of arms, which are mutually Φ to % disposed in the concave body. Each arm further has: a first rod body, which is connected to The concave inner body is at an angle with the inner wall of the concave seat; a Λ 捍 , 捍 ' is disposed on one side of the fixing hole, so that the curved rod of the pair of branches # forms the alignment And a pair of second rods of the second rod body are respectively connected to one end of the curved rod and the first rod body, and the other second rod body is connected to the curved rod At the other end, the second rod body of the pair of arms forms a necking channel on both sides of the alignment port. 4. The locking device with the positioning and floating adjustment mechanism described in claim j, wherein the positioning portion further has: a concave seat; at least one pair of elastic alignment portions respectively A fixing hole has a pair of arms corresponding to each of the elastic aligning portions, and is symmetrically disposed in the concave seat body. Each arm further has: a first rod body connected to the concave shape The inner body of the seat is at an angle with the inner wall of the concave seat; a curved rod is disposed on one side of the fixed hole such that the curved rod of the pair of branches 17 201116727 f forms the opposite position; The two rods are respectively connected to the curved rod and the first rod body so that the second rod body of the pair of arms is turned over at the opposite position. "The cup body I === two f and the floating adjustment mechanism accommodates the positioning portion I, and has a groove" to provide the positioning and floating adjustment mechanism described in item 6. I / / + "framework The upper portion has a plurality of (four)-through holes, and the second portion has a plurality of second holes corresponding to the plurality of first through holes, wherein the locking device has a positioning and floating adjustment mechanism, wherein This t is an electronic device. 8· Π = the mouth lock device with positioning and floating adjustment mechanism described in item 1, wherein the lock element further has: "~cap body 9 sliding body' is connected with the (four) 'the secret chute And a body member is disposed at the other end of the sliding body to prevent the locking member from coming off the sliding groove. The one side of the carrier is further connected to the solid portion. 9. == The positioning and floating adjustment mechanism described in the item f!1, wherein the locking portion is formed with a thread. 10. A locking device with positioning and floating adjustment mechanism 18 201116727 as claimed in claim i, wherein the frame is a frame for a server.